土壤微生物表格

土壤碳氮EctomycorrhizalfungislowsoilcarboncyclingAlpinesoilcarbonisvulnerabletorapidmicrobialdecompositionunderclimatecooling.Globalnegativeeffectsofnitrogendepositiononsoilmicrobes.WarmingenhancesoldorganiccarbondecompositionthroughalteringfunctionalmicrobialcommunitiesGrazing-inducedmicrobiomealterationsdrivesoilorganiccarbonturnoverandproductivityinmeadowsteppe.SoilexchangeratesofCOSandCO18Odifferwiththediversityofmicrobialcommunitiesandtheircarbonicanhydraseenzymes.Alteredcarbonturnoverprocessesandmicrobiomesinsoilsunderlong-termextremelyhighCO2exposure.MicrobialtemperaturesensitivityandbiomasschangeexplainsoilcarbonlosswithwarmingTemperaturemediatescontinental-scalediversityofmicrobesinforestsoils.Soilmicrobialcommunitiesandelkforagingintensity:implicationsforsoilbiogeochemicalcyclinginthesagebrushsteppe.Microbialcontrolofsoilorganicmattermineralizationresponsestolabilecarboninsubarcticclimatechangetreatments.Dynamicsofmicrobialcommunitycompositionandsoilorganiccarbonmineralizationinsoilfollowingadditionofpyrogenicandfreshorganicmatter.Microbialregulationofthesoilcarboncycle:evidencefromgene-enzymerelationships.Nitrogen-richmicrobialproductsprovideneworgano-mineralassociationsforthestabilizationofsoilorganicmatter.气候生态Identifyingthemicrobialtaxathatconsistentlyrespondtosoilwarmingacrosstimeandspace.Soilmicrobialdiversitydrivestheprimingeffectalongclimategradients:acasestudyinMadagascarIncreasingaridityreducessoilmicrobialdiversityandabundanceinglobaldrylandsDroughtconsistentlyaltersthecompositionofsoilfungalandbacterialcommunitiesingrasslandsfromtwocontinentsClimatewarmingleadstodivergentsuccessionofgrasslandmicrobialcommunitiesFastmicrobesregulateslowsoilfeedbacksSeasonalandecohydrologicalregulationofactivemicrobialpopulationsinvolvedinDOC,CO2,andCH4fluxesintemperaterainforestsoilEffectivenessofecologicalrescueforalteredsoilmicrobialcommunitiesandfunctionsClimate-relatedchangesofsoilcharacteristicsaffectbacterialcommunitycompositionandfunctionofhighaltitudeandlatitudelakes.Soilmicrobialcommunitiesdrivetheresistanceofecosystemmultifunctionalitytoglobalchangeindrylandsacrosstheglobe.Potentialsourcesofmicrobialcolonizersinaninitialsoilecosystemafterretreatofanalpineglacier.Differentialsensitivityoftotalandactivesoilmicrobialcommunitiestodroughtandforestmanagement.Modelingofsoilnitrificationresponsestotemperaturerevealsthermodynamicdifferencesbetweenammonia-oxidizingactivityofarchaeaandbacteria.综述Biophysicalprocessessupportingthediversityofmicrobiallifeinsoil.ForestSoilBacteria:Diversity,InvolvementinEcosystemProcesses,andResponsetoGlobalChangeBuildyourownsoil:exploringmicrofluidicstocreatemicrobialhabitatstructuresSoilprotistcommunitiesformadynamichubinthesoilmicrobiomeSolibiodiversityeffectsfromfieldtoforkEmbracingtheunknown:disentanglingthecomplexitiesofthesoilmicrobiomeThemicrobialecologyofpermafrostMicrobialchangeinwarmingsoils.OrganicAmendments,BeneficialMicrobes,andSoilMicrobiota:TowardaUnifiedFrameworkforDiseaseSuppression.MicrobialecologyofbiologicalinvasionsTheEcologicalRoleofVolatileandSolubleSecondaryMetabolitesProducedbySoilBacteria.SteeringSoilMicrobiomestoSuppressAbovegroundInsectPests.其他好文NovelsoilbacteriapossessdiversegenesforsecondarymetabolitebiosynthesisLandscapetopographystructuresthesoilmicrobiomeinarcticpolygonaltundraDepthmatters:effectsofprecipitationregimeonsoilmicrobialactivityuponrewettingofaplant-soilsystemCorrespondence:Analyticalflawsinacontinental-scaleforestsoilmicrobialdiversitystudyAglobalatlasofthedominantbacteriafoundinsoilImpactofspatialorganizationonanovelauxotrophicinteractionamongsoilmicrobes.Structureandfunctionoftheglobaltopsoilmicrobiome.Legacyoflandusehistorydeterminesreprogrammingofplantphysiologybysoilmicrobiome.ConsistentresponsesofsoilmicrobialtaxonomicandfunctionalattributestomercurypollutionacrossChina.Geneticcorrelationnetworkpredictionofforestsoilmicrobialfunctionalorganization.SpatialscaleaffectstherelativeroleofstochasticityversusdeterminisminsoilbacterialcommunitiesinwheatfieldsacrosstheNorthChinaPlain.Theoccurrenceofpotatocommonscabcorrelateswiththecommunitycompositionandfunctionofthegeocaulospheresoilmicrobiome.Ecosystemfluxesofhydrogeninamid-latitudeforestdrivenbysoilmicroorganismsandplants.Decreasedplantproductivityresultingfromplantgroupremovalexperimentconstrainssoilmicrobialfunctionaldiversity.Adulttreescausedensity-dependentmortalityinconspecificseedlingsbyregulatingthefrequencyofpathogenicsoilfungi.Geographicpatternsofco-occurrencenetworktopologicalfeaturesforsoilmicrobiotaatcontinentalscaleineasternChinaLowmultifunctionalredundancyofsoilfungaldiversityatmultiplescales.Photoautotrophicorganismscontrolmicrobialabundance,diversity,andphysiologyindifferenttypesofbiologicalsoilcrusts.Nematodegrazingpromotesbacterialcommunitydynamicsinsoilattheaggregatelevel.Croppingpracticesmanipulateabundancepatternsofrootandsoilmicrobiomememberspavingthewaytosmartfarming.Resilienceoftheresidentsoilmicrobiometoorganicandinorganicamendmentdisturbancesandtotemporaryb